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101. Bifurcated Region 2 Field‐Aligned Currents Associated With Substorms.

Author

Sangha, H., Milan, S. E., Carter, J. A., Fogg, A. R., Anderson, B. J., Korth, H., and Paxton, L. J.

Subjects

MAGNETOSPHERE, MAGNETIC storms, ELECTRODYNAMICS, GEOMAGNETISM, BIFURCATION theory

Abstract

We analyze the magnetosphere‐ionosphere field‐aligned currents associated with substorms using the Active Magnetosphere and Planetary Electrodynamics Response Experiment. We report a new phenomenon related to substorm onset: the development of a second pair of R2 field‐aligned currents located equatorward of the preexisting R1/R2 currents, especially in the dusk sector. The appearance of such events favors the summer hemisphere, suggesting that ionospheric conductance modulates this phenomenon. During ongoing geomagnetic activity, the events have a quasiperiodicity of approximately 1 hr. We suggest that this phenomenon is related to subauroral polarization streams, which are strong westward flows in the dusk sector midlatitude ionosphere. This paper proposes a new mechanism that describes the formation of these current bifurcations: Consecutive particle injections into the inner magnetosphere during disturbed geomagnetic conditions cause separate partial ring currents to form, leading to the presence of distinct R2 current systems, all flowing into the R1 current. Key Points: Previously undetected bifurcations in the Region 2 field‐aligned currents have been observed using AMPERE dataThe current signature appears to be associated with the substorm expansion phaseDuring ongoing geomagnetic activity, the events appear to have a 1 hr quasiperiodicity [ABSTRACT FROM AUTHOR]

Published

2020